Dr. Jack Kruse nnEMFs Are Destroying Your Health

EMFs Are Destroying Your Health:  Dr. Jack Kruse’s Perspective

Electromagnetic Fields (EMFs) have become an unavoidable part of modern life. From smartphones to Wi-Fi routers, from LEDs to 5G towers, we are living amidst an ever-growing soup of artificial radiation—and its potential implications for human biology are massive. Dr. Jack Kruse, a neurosurgeon and a self-described “quantum biology pioneer,” pulls no punches when it comes to warning us about the dangers of non-native EMFs.

In the conversation transcribed below, he details how non-native electromagnetic frequencies (as opposed to natural frequencies such as the Schumann resonance or visible sunlight) can wreck our health at the subcellular and mitochondrial levels. Whether you’re a medical professional, a parent, a technology enthusiast, or a health-conscious individual, this post will show you how deeper scientific principles—ranging from quantum mechanics to biology—intersect with the modern world’s reliance on technology.

 

The modern world seems built on unbridled technological progress, driven by silicon chips, wireless signals, and blue-lit screens. For better or worse, these innovations have changed the fabric of daily life. Yet few pause to ask: What hidden costs do these electromagnetic fields (EMFs) impose on human biology?

Dr. Jack Kruse, a practicing neurosurgeon, has spent years researching and self-experimenting to understand these costs. In a video discussion with two podcast hosts—Tristan and Ryan—he explores:

• The history of EMF research by Robert O. Becker and Andrew Marino, who first sounded alarms about man-made fields and their biological impact.
• The role of NASA and bone research in revealing the importance of natural electromagnetic fields for human health.
• Semiconductors in biology—yes, your tissues act like semiconductors. Understanding this is crucial to seeing how artificial frequencies cause cellular damage.
• Addictive properties of technology and blue light, tying together everything from Vegas slot machines to smartphone screens.
• Future technologies like 5G and 6G—and why we’re approaching a perfect storm of EMF exposures.

By the end of this post, you’ll have a clearer understanding of why EMFs are not just about “thermal” or “non-thermal” concerns, but about disrupting fundamental biological processes at the quantum level.

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The Forgotten Legacy of Robert Becker and Andrew Marino

Dr. Kruse repeatedly references two critical figures: Dr. Robert O. Becker, author of The Body Electric, and Andrew Marino, a biophysicist and later attorney, who worked closely with Becker. In the 1970s, Becker and Marino discovered astonishing facts:

• Bone is a semiconductor with p-type and n-type regions bound by copper atoms.
• Low-frequency EMFs from power lines could alter bone healing and growth, which upended conventional ideas about biology’s sensitivity to electromagnetic inputs.
• They also found that human health is intimately tied to extremely weak natural fields, such as the Schumann resonance (around 7.83 Hz), which ties directly into our alpha brain waves.

Becker’s Legacy and the Military

Becker famously clashed with the industrial-military complex when he discovered that even extremely weak EMFs could affect biological systems. According to Kruse, the military tried to bury or discredit Becker’s work because of its implications for radar, submarine communications, and other defense technologies. Andrew Marino eventually became a lawyer to defend Becker, underscoring just how politically and financially sensitive EMF research had become.

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EMFs, Bone Health, and NASA’s Research

One of the earliest clues for Dr. Kruse’s own awakening to EMFs was the phenomenon of astronauts experiencing severe bone density losses in space. According to Wolf’s Law, bone density should increase under stress (e.g., exercise or gravity). Yet in microgravity, NASA was perplexed by osteoporosis-like demineralization in astronauts—even those who exercised regularly with specialized equipment.

Space Osteoporosis and Magnetism

Kruse recognized that astronauts are outside the protection of Earth’s magnetosphere. Because bone is a piezoelectric semiconductor, it relies on light and electromagnetic signals for healthy remodeling. When you strip away the Earth’s magnetic field and the natural light spectrum, bone metabolism goes haywire.

NASA tried various interventions—like the “vibration plate” or VEAS (Vibration Exercise And Sense Assessment) machines—to combat bone loss. But as Kruse recounts, NASA’s in-house conversations started pointing toward the subtle ways that the lack of magnetosphere and altered light exposure triggered catastrophic changes in p-type and n-type semiconductor layers in bone.

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How the Military-Industrial Complex Influenced Science

Dr. Kruse draws a bold line connecting the Manhattan Project and General Leslie Groves’ realization that if you control funding, you control the direction of science. By steering National Institutes of Health (NIH) grants toward molecular biology or pharmaceutical treatments, mainstream research avoided investigating mitochondrial and electromagnetic links to disease.

This strategy also explains:

• NASA’s hush-hush approach in the 20th century: they selectively funded technologies to keep astronauts alive but rarely made noise about the deeper, universal problem of non-native EMFs.
• Captured regulatory bodies like the FCC, which seldom acknowledge the health implications of new wireless technologies.
• Why essential scientific findings—for instance, that power lines in rural areas could disturb Earth’s magnetosphere up to 880,000 km above the planet—were swept under the rug.

For Dr. Kruse, the failure mode of modern science arises from its fixation on RNA, DNA, and pharmaceuticals, ignoring the electromagnetic and mitochondrial aspects. As he puts it, “You don’t solve chronic disease by ignoring the electromagnetic environment.”

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Understanding the Semiconductors Within Our Bodies

The idea that bone and various proteins act as semiconductors is not widely taught in medical schools or even in engineering programs. But Dr. Kruse traces this back to:

• Albert Szent-Györgyi (1941): First discussions of proteins as semiconductors.
• Robert Becker (1950s–1970s): Demonstrated p-type and n-type semiconductor behavior in collagen and apatite within bone.
• Crawford, Pollack, Ling, and others: Confirmed that water and biological molecules can exhibit semiconductive and quantum properties that are easily disrupted by exogenous EMFs.

Key point: Unlike silicon chips, which fail primarily from thermal (heat) overload, biological semiconductors fail more easily and in multiple ways—often due to dehydration or displacement of critical ions like calcium, magnesium, or copper. This heightened sensitivity is why non-native EMFs can cause “molecular chaos” in living tissues.

Electronic Failures vs. Ubiquitination

In simpler terms:

• A silicon-based LED might fail from heat or oxidation.
• A protein-based semiconductor fails when crucial atoms or electrons are knocked out of alignment. Once compromised, the cell’s ubiquitination pathways mark these damaged proteins for destruction. Replacing them is biologically expensive, especially in tissues like bone that are meant to last a lifetime.

This expense in ATP and raw materials can initiate a downward spiral, where non-native EMFs continually degrade the cell’s semiconductors and hamper the replacement process.

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Blue Light: The Silent (and Addictive) EMF Assault

Not all EMFs come from radiofrequency (RF) or microwave sources. Blue light (within the visible spectrum) can be considered a form of EMF too. As Dr. Kruse points out, blue-lit screens were deliberately designed to be addictive. He highlights a fascinating historical anecdote:

1. Las Vegas Mafia in the mid-20th century discovered that blue-lit slot machines combined with alcohol made people lose track of time and money.
2. The CIA studied these effects in MK Ultra research at Tulane University, focusing on how to lower dopamine levels and control human behavior.
3. Fast-forward to the 21st century, and all screens—from iPhones to laptops—are predominantly blue-lit, thereby hooking users into near-constant engagement.

Why Blue Light Is Biologically Destructive

• Melanopsin, the blue-light photoreceptor, is ubiquitous in human tissues, not just in the eyes. Overexposure to blue light disrupts circadian rhythms, lowers melatonin, and wreaks havoc on mitochondrial health.
• Chronic exposure can lead to sleep disorders, fatigue, and mood disturbances.
• It is especially damaging for children, whose retinal and brain barriers are more permeable, potentially accelerating problems such as ADHD, vision issues, and depression.

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5G, 6G, and The Progression of Wireless Technologies

While blue light is one major piece of the puzzle, RF and microwave radiation deserve equal attention. Dr. Kruse and many engineers raise alarms about 5G and upcoming 6G technologies:

• 5G uses millimeter waves (above 24 GHz), requiring “small cells” or repeaters closer to ground level, thus bringing the source physically nearer to human bodies.
• At frequencies 60 GHz and above, oxygen in the atmosphere can be strongly affected, potentially making oxygen less available to living systems.
• 6G (still experimental) could push even further into sub-terahertz or even infrared bands, risking direct interference with the very frequencies that power mitochondrial processes, particularly in the red and near-infrared region of the electromagnetic spectrum.

The Role of Pulsed Waves

Current cellular technology is mostly digital and pulsed. The signal is turned on and off rapidly, which can be far more biologically disruptive than an equivalent continuous wave. Pulsing can produce rapid oscillations that might interfere with:

• Alpha brain waves (~8–12 Hz) that synchronize sleep and wake cycles.
• Mitochondrial resonance frequencies in the 100 Hz range.
• The Schumann resonance at ~7.83 Hz, believed to be critical for synchronizing circadian rhythms.

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EMFs and Health: Key Mechanisms of Damage

So how, precisely, do non-native EMFs wreak havoc on human biology? It comes down to four core mechanisms (though there are many nuances).

Calcium Ion Influx

Research going back to A. P. Liboff’s work in the 1970s showed that electromagnetic fields can cause voltage-gated calcium channels (VGCCs) in cell membranes to open prematurely. Excess intracellular calcium leads to:

• Oxidative stress
• Damage to mitochondria
• Increased neurotransmitter release (potentially lowering dopamine in the brain)

Voltage-Gated Channels and Membrane Currents

Voltage-gated sodium, potassium, and calcium channels are among the most fundamental components in neural signaling and muscle function. Non-native EMFs can create noise or “white noise” that disrupts the normal gating process. Dr. Kruse emphasizes that these channels evolved under natural electromagnetic conditions; they were never meant to handle the “AM radio static” at high intensities or the pulsed signals of 5G.

The Role of Water and Proton Tunneling

At the quantum level, proton tunneling is integral to how mitochondria produce ATP via the electron transport chain. Dr. Gerald Pollack’s work demonstrates how structured water (exclusion zone water) in cells is easily disturbed by EMFs. Once the water structure collapses, proton flow and ATP generation can falter. This is a non-thermal mechanism; it does not require heating tissues.

Thermal vs. Non-Thermal Effects

A longstanding industry argument is that if a device does not cause significant tissue heating, it is “safe.” Dr. Kruse disputes this, citing:

• Biological semiconductors can fail from electronic dislocations, not just from heat.
• Enzymatic and protein structures are far more sensitive to electric and magnetic fields than mainstream engineering or medical models suggest.

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Controversies, Misinformation, and Industry Capture

Why hasn’t mainstream medicine adopted this knowledge, especially if these effects are so pervasive? The reasons are multi-layered:

1. Regulatory Capture: Agencies like the FCC and NIH are heavily influenced by corporate interests—especially telecom and defense contractors.
2. Centralized Funding: Academic labs rely on grants, and “too many” negative EMF findings could jeopardize future funding.
3. Tech Addiction: Society is hooked on mobile devices, social media, and connected tech. Even individuals who are skeptical of government narratives often remain dependent on (and blindly trust) the devices that shape their information ecosystems.
4. Competing Paradigms: Conventional medical education focuses on DNA, RNA, and pharmaceutical interventions. Mitochondrial and electromagnetic research is often marginalized—an echo of what Dr. Robert Becker endured decades ago.

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Practical Strategies for EMF Mitigation

After reading all this, it’s natural to wonder: What can I do about it? Below are some actionable strategies.

Inverse Square Law: The Most Important Principle

The Inverse Square Law states that the intensity of radiation or a field is inversely proportional to the square of the distance from the source. This is the golden rule of EMF mitigation.

• Distance is your friend. Instead of carrying your phone in your pocket, keep it in a bag or on a desk.
• For 5G antennas placed on rooftops, the closer you are physically to them, the higher the exposure. Moving even a short distance away can drastically reduce your exposure.

Grounding and Geographic Relocation

Grounding—physically touching the Earth with bare feet or using conductive materials—can help discharge excess positive ions and rebalance body voltages. But Dr. Kruse warns:

• Grounding in high EMF areas (like a big city with underground power lines) can be risky. Essentially, you could become the path of least resistance for stray electrical currents.
• Consider your latitude and geologic conditions. Areas with volcanic or geothermal activity can offer better grounding scenarios (e.g., certain parts of El Salvador).
• Relocation may be the best strategy if you’re experiencing severe health issues. Getting away from dense networks of cell towers and abundant electrical lines can significantly reduce non-native EMF exposure.

Creating An EMF-Safe Environment at Home

1. Kill Switches for Electrical Circuits
   • Install circuit cutoffs (e.g., “demand switches”) to turn off bedroom electricity at night.
   • Reduce ambient electric fields where you sleep.
2. Shielding and Distance
   • Use Ethernet cables instead of Wi-Fi.
   • Place your Wi-Fi router far from sleeping areas or put it on a timer.
3. Screen Technology
   • Use blue-light filters, or better yet, devices that reduce flicker and blue LED exposure.
   • Avoid LED overhead lighting; switch to incandescent bulbs where possible.
4. Assessing Dirty Electricity
   • Hire an EMF specialist or use a body voltage meter to check for stray voltage and magnetic fields in your home.
   • Correct wiring errors or faulty grounding to minimize dirty electricity on circuits.

New Technologies: Daylight Screens

Dr. Kruse references a company called Daylight Computer, founded by Anand Srivastava, who built a screen that eliminates flicker, drastically reduces blue light, and provides a more biologically compatible light spectrum.

• Blue light from screens disrupts melatonin and circadian rhythms.
• A screen that uses a fuller spectrum or advanced technology to remove flicker can massively reduce eye strain, headaches, and potential addictive dopamine suppression.
• Although these devices are emerging, they represent a hopeful trend toward “anabolic computing” that doesn’t degrade human biology.

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Conclusion and Key Takeaways

Living in the modern world doesn’t require us to renounce technology altogether. However, it does require an honest appraisal of how artificial EMFs—from blue light to RF and microwave frequencies—might be shaping our biology, our mental health, and societal well-being. Dr. Jack Kruse’s perspective offers a stern reminder:

1. Human biology evolved under visible sunlight, Earth’s magnetic field, and the Schumann resonance—not chronic bombardment from 2G, 3G, 4G, 5G, or 6G.
2. Bones and tissues are highly sensitive semiconductors. EMFs can disrupt these natural semiconductors at very low power densities by displacing ions or collapsing water structures.
3. Blue light is an underrated EMF hazard—deliberately designed to be addictive and unknowingly lowering your dopamine and melatonin levels.
4. Regulatory institutions (e.g., FCC, NIH) and academic funding pathways often ignore these crucial insights due to industry pressures and a focus on ROI-driven science.
5. Practical mitigation is possible:
   • Employ distance (Inverse Square Law).
   • Optimize lighting (replace LED with incandescent, use screens with minimized blue/flicker).
   • Ground properly, but be aware of dirty electricity.
   • Consider relocation or at least travel to low-EMF places for respite.

Ultimately, health and wealth are deeply intertwined. As Dr. Kruse frequently warns, “What good is being a millionaire or billionaire if you don’t live long enough to enjoy it?” Understanding and mitigating EMFs is an essential part of that quest. With growing awareness—and with the promise of new technologies that avoid the pitfalls of old—there is a path forward that merges digital progress with human biological needs.

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Disclaimer: The information in this post is for educational purposes only. It is not medical or legal advice. Always consult with a qualified health professional for personal medical decisions.

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Interested in Learning More?

Below are some recommended resources:

• Books
  • The Body Electric by Robert O. Becker
  • Cross Currents by Robert O. Becker
  • Invisible Rainbow by Arthur Firstenberg
  • Cells, Gels, and the Engines of Life by Gerald Pollack
• Peer-Reviewed Studies
  • Liboff, AR (1970s–1990s). Research on electromagnetic fields and calcium ion cyclotron resonance.
  • Marino, AA, Becker, RO. Numerous papers detailing osteogenesis and EMF impact on bone healing.
  • Pollack, GH. Research on exclusion zone (EZ) water and how water structure is affected by electromagnetic fields.
• Online Communities & Forums
  • Dr. Jack Kruse’s online membership/forum
  • EMF Safety groups on social media
  • Decentralized health and Bitcoin-related health communities

With greater awareness and the right research agenda—funded perhaps by decentralized means rather than centralized government or big industry—science may finally catch up with the realities of how non-native EMFs challenge our biologic design. Let’s hope we get there soon, before the next generation grows up completely immersed in a wireless environment that none of us had the evolutionary blueprint to withstand.